Two-time-scale averaging of systems involving operators and its application to adaptive control of hysteretic systems

A method of adaptive control of military radio network parameters has been developed. This method allows predicting suppressed frequencies by electronic warfare devices, determining the topology of the military radio network. Also, this method allows determining rational routes of information transmission and operating mode of radio communications. Forecasting of the electronic environment is characterized by recirculation of input data for one count, resampling on a logarithmic time scale, finding a forecast for the maximum value of entropy and resampling the forecast on the exponential time scale. The developed method allows choosing a rational network topology. The choice of topology of the military radio communication system is based on the method of ant multi-colony system. The main idea of the new option of ant colony optimization is that instead of one colony of the traditional ant algorithm several colonies are used that work together in a common search space. However, this procedure additionally takes into account the type of a priori uncertainty and the evaporation coefficient of the pheromone level. The proposed method allows choosing a rational route for information transmission. The proposed procedure is based on an improved DSR algorithm. This method uses several operating modes of radio communications, namely the technology of multi-antenna systems with noise-like signals, with pseudo-random adjustment of the operating frequency and with orthogonal frequency multiplexing. The developed method provides a gain of 10‒16 % compared to conventional management approaches

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Adaptive control systems with two-time scale motions

Proceedings. 2005 International Conference Physics and Control, 2005. ◽

10.1109/phycon.2005.1514096 ◽

2006 ◽

Cited By ~ 2

Author(s):

A.S. Vostrikov ◽

O.Y. Shpilevaya

Keyword(s):

Adaptive Control ◽

Control Systems ◽

Time Scale ◽

Adaptive Control Systems

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Adaptive Control in CNC Sheet Metal Processing

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.473.13 ◽

2011 ◽

Vol 473 ◽

pp. 13-20 ◽

Cited By ~ 4

Author(s):

Wim Serruys

Keyword(s):

Adaptive Control ◽

Sheet Metal ◽

Time Scale ◽

Production Control ◽

Resource Control ◽

Control Loop ◽

Sheet Metal Parts ◽

Adaptive Process Control ◽

Adaptive Resource ◽

Production Software

Three different and complementary ways of adaptive control are presented, each working on a different time scale. All three of them are made possible due to evolutions and developments in CNC controls. The first and most popular way of adaptive control is adaptive process control. Since the process variables in sheet metal equipment change significantly in milliseconds, the control loop must also perform on a sub second time scale. The second adaptive loop is adaptive production control. Modern CNC controls know what they are manufacturing and talk with higher production software. Instead of just executing a planning that came top down, the CNC has enough knowledge of its environment that it can propose an intelligent job sequence and hence react more effectively on unforeseen situations. These adaptive loops perform on a time scale of hours and days. The third adaptive loop is adaptive resource control. To produce sheet metal parts, we need several kinds of resources: human resources, material, consumables, energy and equipment. CNC sheet metal equipment is a considerable investment. However most production managers do not know how effective their resources are being used. By applying the principles of overall equipment effectiveness, we can close the resource control loop. This loop performs on a time scale of weeks and months.

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